public ReactionResult React(GasMixture mixture, IGasMixtureHolder?holder, GridTileLookupSystem gridTileLookup)
{
// If any of the prototypes is invalid, we do nothing.
if (string.IsNullOrEmpty(Reagent) || string.IsNullOrEmpty(PuddlePrototype))
{
return(ReactionResult.NoReaction);
}
// If we're not reacting on a tile, do nothing.
if (holder is not TileAtmosphere tile)
{
return(ReactionResult.NoReaction);
}
// If we don't have enough moles of the specified gas, do nothing.
if (mixture.GetMoles(GasId) < MolesPerUnit)
{
return(ReactionResult.NoReaction);
}
// Remove the moles from the mixture...
mixture.AdjustMoles(GasId, -MolesPerUnit);
var tileRef = tile.GridIndices.GetTileRef(tile.GridIndex);
tileRef.SpillAt(new Solution(Reagent, ReagentUnit.New(MolesPerUnit)), PuddlePrototype, sound: false);
return(ReactionResult.Reacting);
}
public ReactionResult React(GasMixture mixture, IGasMixtureHolder?holder, AtmosphereSystem atmosphereSystem)
{
var initialN2 = mixture.GetMoles(Gas.Nitrogen);
var initialOxy = mixture.GetMoles(Gas.Oxygen);
var initialTrit = mixture.GetMoles(Gas.Tritium);
var efficiency = mixture.Temperature / Atmospherics.FrezonProductionMaxEfficiencyTemperature;
var loss = 1 - efficiency;
// Less N2 is required the more efficient it is.
var minimumN2 = (initialOxy + initialTrit) / (Atmospherics.FrezonProductionNitrogenRatio * efficiency);
if (initialN2 < minimumN2)
{
return(ReactionResult.NoReaction);
}
var oxyConversion = initialOxy / Atmospherics.FrezonProductionConversionRate;
var tritConversion = initialTrit / Atmospherics.FrezonProductionConversionRate;
var total = oxyConversion + tritConversion;
mixture.AdjustMoles(Gas.Oxygen, -oxyConversion);
mixture.AdjustMoles(Gas.Tritium, -tritConversion);
mixture.AdjustMoles(Gas.Frezon, total * efficiency);
mixture.AdjustMoles(Gas.Nitrogen, total * loss);
return(ReactionResult.Reacting);
}
public ReactionResult React(GasMixture mixture, IGasMixtureHolder?holder, AtmosphereSystem atmosphereSystem)
{
var initialMiasma = mixture.GetMoles(Gas.Miasma);
var initialFrezon = mixture.GetMoles(Gas.Frezon);
var convert = Math.Min(Math.Min(initialFrezon, initialMiasma), Atmospherics.MiasmicSubsumationMaxConversionRate);
mixture.AdjustMoles(Gas.Miasma, convert);
mixture.AdjustMoles(Gas.Frezon, -convert);
return(ReactionResult.Reacting);
}
public ReactionResult React(GasMixture mixture, IGasMixtureHolder?holder, AtmosphereSystem atmosphereSystem)
{
var oldHeatCapacity = atmosphereSystem.GetHeatCapacity(mixture);
var temperature = mixture.Temperature;
var energyModifier = 1f;
var scale = (temperature - Atmospherics.FrezonCoolLowerTemperature) /
(Atmospherics.FrezonCoolMidTemperature - Atmospherics.FrezonCoolLowerTemperature);
if (scale > 1f)
{
// Scale energy but not frezon usage if we're in a very, very hot place
energyModifier = Math.Min(scale, Atmospherics.FrezonCoolMaximumEnergyModifier);
scale = 1f;
}
if (scale <= 0)
{
return(ReactionResult.NoReaction);
}
var initialNit = mixture.GetMoles(Gas.Nitrogen);
var initialFrezon = mixture.GetMoles(Gas.Frezon);
var burnRate = initialFrezon * scale / Atmospherics.FrezonCoolRateModifier;
var energyReleased = 0f;
if (burnRate > Atmospherics.MinimumHeatCapacity)
{
var nitAmt = Math.Min(burnRate * Atmospherics.FrezonNitrogenCoolRatio, initialNit);
var frezonAmt = Math.Min(burnRate, initialFrezon);
mixture.AdjustMoles(Gas.Nitrogen, -nitAmt);
mixture.AdjustMoles(Gas.Frezon, -frezonAmt);
mixture.AdjustMoles(Gas.NitrousOxide, nitAmt + frezonAmt);
energyReleased = burnRate * Atmospherics.FrezonCoolEnergyReleased * energyModifier;
}
if (energyReleased >= 0f)
{
return(ReactionResult.NoReaction);
}
var newHeatCapacity = atmosphereSystem.GetHeatCapacity(mixture);
if (newHeatCapacity > Atmospherics.MinimumHeatCapacity)
{
mixture.Temperature = (temperature * oldHeatCapacity + energyReleased) / newHeatCapacity;
}
return(ReactionResult.Reacting);
}
public ReactionResult React(GasMixture mixture, IGasMixtureHolder?holder)
{
var reaction = ReactionResult.NoReaction;
var temperature = mixture.Temperature;
var energy = GetThermalEnergy(mixture);
foreach (var prototype in GasReactions)
{
if (energy < prototype.MinimumEnergyRequirement ||
temperature < prototype.MinimumTemperatureRequirement ||
temperature > prototype.MaximumTemperatureRequirement)
{
continue;
}
var doReaction = true;
for (var i = 0; i < prototype.MinimumRequirements.Length; i++)
{
if (i > Atmospherics.TotalNumberOfGases)
{
throw new IndexOutOfRangeException("Reaction Gas Minimum Requirements Array Prototype exceeds total number of gases!");
}
var req = prototype.MinimumRequirements[i];
if (!(mixture.GetMoles(i) < req))
{
continue;
}
doReaction = false;
break;
}
if (!doReaction)
{
continue;
}
reaction = prototype.React(mixture, holder, this);
if (reaction.HasFlag(ReactionResult.StopReactions))
{
break;
}
}
return(reaction);
}
public ReactionResult React(GasMixture mixture, IGasMixtureHolder?holder, GridTileLookupSystem gridTileLookup)
{
var energyReleased = 0f;
var oldHeatCapacity = mixture.HeatCapacity;
var temperature = mixture.Temperature;
var location = holder as TileAtmosphere;
// More plasma released at higher temperatures
var temperatureScale = 0f;
var superSaturation = false;
if (temperature > Atmospherics.PlasmaUpperTemperature)
{
temperatureScale = 1f;
}
else
{
temperatureScale = (temperature - Atmospherics.PlasmaMinimumBurnTemperature) /
(Atmospherics.PlasmaUpperTemperature - Atmospherics.PlasmaMinimumBurnTemperature);
}
if (temperatureScale > 0f)
{
var plasmaBurnRate = 0f;
var oxygenBurnRate = Atmospherics.OxygenBurnRateBase - temperatureScale;
if (mixture.GetMoles(Gas.Oxygen) / mixture.GetMoles(Gas.Plasma) >
Atmospherics.SuperSaturationThreshold)
{
superSaturation = true;
}
if (mixture.GetMoles(Gas.Oxygen) >
mixture.GetMoles(Gas.Plasma) * Atmospherics.PlasmaOxygenFullburn)
{
plasmaBurnRate = (mixture.GetMoles(Gas.Plasma) * temperatureScale) /
Atmospherics.PlasmaBurnRateDelta;
}
else
{
plasmaBurnRate = (temperatureScale * (mixture.GetMoles(Gas.Oxygen) / Atmospherics.PlasmaOxygenFullburn)) / Atmospherics.PlasmaBurnRateDelta;
}
if (plasmaBurnRate > Atmospherics.MinimumHeatCapacity)
{
plasmaBurnRate = MathF.Min(MathF.Min(plasmaBurnRate, mixture.GetMoles(Gas.Plasma)), mixture.GetMoles(Gas.Oxygen) / oxygenBurnRate);
mixture.SetMoles(Gas.Plasma, mixture.GetMoles(Gas.Plasma) - plasmaBurnRate);
mixture.SetMoles(Gas.Oxygen, mixture.GetMoles(Gas.Oxygen) - (plasmaBurnRate * oxygenBurnRate));
mixture.AdjustMoles(superSaturation ? Gas.Tritium : Gas.CarbonDioxide, plasmaBurnRate);
energyReleased += Atmospherics.FirePlasmaEnergyReleased * (plasmaBurnRate);
mixture.ReactionResults[GasReaction.Fire] += (plasmaBurnRate) * (1 + oxygenBurnRate);
}
}
if (energyReleased > 0)
{
var newHeatCapacity = mixture.HeatCapacity;
if (newHeatCapacity > Atmospherics.MinimumHeatCapacity)
{
mixture.Temperature = ((temperature * oldHeatCapacity + energyReleased) / newHeatCapacity);
}
}
if (location != null)
{
temperature = mixture.Temperature;
if (temperature > Atmospherics.FireMinimumTemperatureToExist)
{
location.HotspotExpose(temperature, mixture.Volume);
foreach (var entity in location.GridIndices.GetEntitiesInTileFast(location.GridIndex, gridTileLookup))
{
foreach (var temperatureExpose in entity.GetAllComponents <ITemperatureExpose>())
{
temperatureExpose.TemperatureExpose(mixture, temperature, mixture.Volume);
}
}
location.TemperatureExpose(mixture, temperature, mixture.Volume);
}
}
return(mixture.ReactionResults[GasReaction.Fire] != 0 ? ReactionResult.Reacting : ReactionResult.NoReaction);
}
public ReactionResult React(GasMixture mixture, IGasMixtureHolder?holder, AtmosphereSystem atmosphereSystem)
{
var energyReleased = 0f;
var oldHeatCapacity = atmosphereSystem.GetHeatCapacity(mixture);
var temperature = mixture.Temperature;
var location = holder as TileAtmosphere;
mixture.ReactionResults[GasReaction.Fire] = 0;
// More plasma released at higher temperatures.
var temperatureScale = 0f;
if (temperature > Atmospherics.PlasmaUpperTemperature)
{
temperatureScale = 1f;
}
else
{
temperatureScale = (temperature - Atmospherics.PlasmaMinimumBurnTemperature) /
(Atmospherics.PlasmaUpperTemperature - Atmospherics.PlasmaMinimumBurnTemperature);
}
if (temperatureScale > 0)
{
var oxygenBurnRate = Atmospherics.OxygenBurnRateBase - temperatureScale;
var plasmaBurnRate = 0f;
var initialOxygenMoles = mixture.GetMoles(Gas.Oxygen);
var initialPlasmaMoles = mixture.GetMoles(Gas.Plasma);
// Supersaturation makes tritium.
var supersaturation = initialOxygenMoles / initialPlasmaMoles > Atmospherics.SuperSaturationThreshold;
if (initialOxygenMoles > initialPlasmaMoles * Atmospherics.PlasmaOxygenFullburn)
{
plasmaBurnRate = initialPlasmaMoles * temperatureScale / Atmospherics.PlasmaBurnRateDelta;
}
else
{
plasmaBurnRate = temperatureScale * (initialOxygenMoles / Atmospherics.PlasmaOxygenFullburn) / Atmospherics.PlasmaBurnRateDelta;
}
if (plasmaBurnRate > Atmospherics.MinimumHeatCapacity)
{
plasmaBurnRate = MathF.Min(plasmaBurnRate, MathF.Min(initialPlasmaMoles, initialOxygenMoles / oxygenBurnRate));
mixture.SetMoles(Gas.Plasma, initialPlasmaMoles - plasmaBurnRate);
mixture.SetMoles(Gas.Oxygen, initialOxygenMoles - plasmaBurnRate * oxygenBurnRate);
mixture.AdjustMoles(supersaturation ? Gas.Tritium : Gas.CarbonDioxide, plasmaBurnRate);
energyReleased += Atmospherics.FirePlasmaEnergyReleased * plasmaBurnRate;
mixture.ReactionResults[GasReaction.Fire] += plasmaBurnRate * (1 + oxygenBurnRate);
}
}
if (energyReleased > 0)
{
var newHeatCapacity = atmosphereSystem.GetHeatCapacity(mixture);
if (newHeatCapacity > Atmospherics.MinimumHeatCapacity)
{
mixture.Temperature = (temperature * oldHeatCapacity + energyReleased) / newHeatCapacity;
}
}
if (location != null)
{
var mixTemperature = mixture.Temperature;
if (mixTemperature > Atmospherics.FireMinimumTemperatureToExist)
{
atmosphereSystem.HotspotExpose(location.GridIndex, location.GridIndices, mixTemperature, mixture.Volume);
}
}
return(mixture.ReactionResults[GasReaction.Fire] != 0 ? ReactionResult.Reacting : ReactionResult.NoReaction);
}
public ReactionResult React(GasMixture mixture, IGasMixtureHolder?holder, GridTileLookupSystem gridTileLookup)
{
var energyReleased = 0f;
var oldHeatCapacity = mixture.HeatCapacity;
var temperature = mixture.Temperature;
var location = holder as TileAtmosphere;
mixture.ReactionResults[GasReaction.Fire] = 0f;
var burnedFuel = 0f;
var initialTrit = mixture.GetMoles(Gas.Tritium);
if (mixture.GetMoles(Gas.Oxygen) < initialTrit ||
Atmospherics.MinimumTritiumOxyburnEnergy > (temperature * oldHeatCapacity))
{
burnedFuel = mixture.GetMoles(Gas.Oxygen) / Atmospherics.TritiumBurnOxyFactor;
if (burnedFuel > initialTrit)
{
burnedFuel = initialTrit;
}
mixture.AdjustMoles(Gas.Tritium, -burnedFuel);
}
else
{
burnedFuel = initialTrit;
mixture.SetMoles(Gas.Tritium, mixture.GetMoles(Gas.Tritium) * (1 - 1 / Atmospherics.TritiumBurnTritFactor));
mixture.AdjustMoles(Gas.Oxygen, -mixture.GetMoles(Gas.Tritium));
energyReleased += (Atmospherics.FireHydrogenEnergyReleased * burnedFuel * (Atmospherics.TritiumBurnTritFactor - 1));
}
if (burnedFuel > 0)
{
energyReleased += (Atmospherics.FireHydrogenEnergyReleased * burnedFuel);
// TODO ATMOS Radiation pulse here!
// Conservation of mass is important.
mixture.AdjustMoles(Gas.WaterVapor, burnedFuel);
mixture.ReactionResults[GasReaction.Fire] += burnedFuel;
}
if (energyReleased > 0)
{
var newHeatCapacity = mixture.HeatCapacity;
if (newHeatCapacity > Atmospherics.MinimumHeatCapacity)
{
mixture.Temperature = ((temperature * oldHeatCapacity + energyReleased) / newHeatCapacity);
}
}
if (location != null)
{
temperature = mixture.Temperature;
if (temperature > Atmospherics.FireMinimumTemperatureToExist)
{
location.HotspotExpose(temperature, mixture.Volume);
foreach (var entity in location.GridIndices.GetEntitiesInTileFast(location.GridIndex, gridTileLookup))
{
foreach (var temperatureExpose in entity.GetAllComponents <ITemperatureExpose>())
{
temperatureExpose.TemperatureExpose(mixture, temperature, mixture.Volume);
}
}
location.TemperatureExpose(mixture, temperature, mixture.Volume);
}
}
return(mixture.ReactionResults[GasReaction.Fire] != 0 ? ReactionResult.Reacting : ReactionResult.NoReaction);
}
public ReactionResult React(GasMixture mixture, IGasMixtureHolder?holder)
{
var energyReleased = 0f;
var oldHeatCapacity = mixture.HeatCapacity;
var temperature = mixture.Temperature;
var location = holder as TileAtmosphere;
// More phoron released at higher temperatures
var temperatureScale = 0f;
var superSaturation = false;
if (temperature > Atmospherics.PhoronUpperTemperature)
{
temperatureScale = 1f;
}
else
{
temperatureScale = (temperature - Atmospherics.PhoronMinimumBurnTemperature) /
(Atmospherics.PhoronUpperTemperature - Atmospherics.PhoronMinimumBurnTemperature);
}
if (temperatureScale > 0f)
{
var phoronBurnRate = 0f;
var oxygenBurnRate = Atmospherics.OxygenBurnRateBase - temperatureScale;
if (mixture.GetMoles(Gas.Oxygen) / mixture.GetMoles(Gas.Phoron) >
Atmospherics.SuperSaturationThreshold)
{
superSaturation = true;
}
if (mixture.GetMoles(Gas.Oxygen) >
mixture.GetMoles(Gas.Phoron) * Atmospherics.PhoronOxygenFullburn)
{
phoronBurnRate = (mixture.GetMoles(Gas.Phoron) * temperatureScale) /
Atmospherics.PhoronBurnRateDelta;
}
else
{
phoronBurnRate = (temperatureScale * (mixture.GetMoles(Gas.Oxygen) / Atmospherics.PhoronOxygenFullburn)) / Atmospherics.PhoronBurnRateDelta;
}
if (phoronBurnRate > Atmospherics.MinimumHeatCapacity)
{
phoronBurnRate = MathF.Min(MathF.Min(phoronBurnRate, mixture.GetMoles(Gas.Phoron)), mixture.GetMoles(Gas.Oxygen) / oxygenBurnRate);
mixture.SetMoles(Gas.Phoron, mixture.GetMoles(Gas.Phoron) - phoronBurnRate);
mixture.SetMoles(Gas.Oxygen, mixture.GetMoles(Gas.Oxygen) - (phoronBurnRate * oxygenBurnRate));
mixture.AdjustMoles(superSaturation ? Gas.Tritium : Gas.CarbonDioxide, phoronBurnRate);
energyReleased += Atmospherics.FirePhoronEnergyReleased * (phoronBurnRate);
mixture.ReactionResults[GasReaction.Fire] += (phoronBurnRate) * (1 + oxygenBurnRate);
}
}
if (energyReleased > 0)
{
var newHeatCapacity = mixture.HeatCapacity;
if (newHeatCapacity > Atmospherics.MinimumHeatCapacity)
{
mixture.Temperature = ((temperature * oldHeatCapacity + energyReleased) / newHeatCapacity);
}
}
if (location != null)
{
temperature = mixture.Temperature;
if (temperature > Atmospherics.FireMinimumTemperatureToExist)
{
location.HotspotExpose(temperature, mixture.Volume);
// TODO ATMOS Expose temperature all items on cell
location.TemperatureExpose(mixture, temperature, mixture.Volume);
}
}
return(mixture.ReactionResults[GasReaction.Fire] != 0 ? ReactionResult.Reacting : ReactionResult.NoReaction);
}
